U.S. patent application number 16/017738 was filed with the patent office on 2019-02-07 for portable sound device.
This patent application is currently assigned to LG ELECTRONICS INC.. The applicant listed for this patent is LG ELECTRONICS INC.. Invention is credited to Donghan KIM, Siyoung PARK.
Application Number | 20190045295 16/017738 |
Document ID | / |
Family ID | 65231284 |
Filed Date | 2019-02-07 |
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United States Patent
Application |
20190045295 |
Kind Code |
A1 |
KIM; Donghan ; et
al. |
February 7, 2019 |
PORTABLE SOUND DEVICE
Abstract
A portable sound device includes: a main body having an audio
output unit holder; an audio output unit detachably mountable in
the audio output unit holder and configured to output audio; an
audio cable coupled to the audio output unit and configured to
transmit an audio signal to the audio output unit, one end of the
audio cable located outside the main body and the other end of the
audio cable located inside the main body; and a rotary module
rotatably mounted in the main body and configured to wind or unwind
the audio cable according to a rotational direction of the rotary
module.
Inventors: |
KIM; Donghan; (Seoul,
KR) ; PARK; Siyoung; (Seoul, KR) |
|
Applicant: |
Name |
City |
State |
Country |
Type |
LG ELECTRONICS INC. |
Seoul |
|
KR |
|
|
Assignee: |
LG ELECTRONICS INC.
Seoul
KR
|
Family ID: |
65231284 |
Appl. No.: |
16/017738 |
Filed: |
June 25, 2018 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
|
|
62541075 |
Aug 3, 2017 |
|
|
|
Current U.S.
Class: |
1/1 |
Current CPC
Class: |
H04R 1/10 20130101; H04R
1/1016 20130101; H04R 1/1041 20130101; H04R 1/1058 20130101; H04R
5/033 20130101; H04R 1/105 20130101; H04R 2420/07 20130101; H04R
1/1033 20130101; H04R 1/1066 20130101 |
International
Class: |
H04R 1/10 20060101
H04R001/10 |
Foreign Application Data
Date |
Code |
Application Number |
Aug 18, 2017 |
KR |
10-2017-0104744 |
Nov 20, 2017 |
KR |
10-2017-0154846 |
Mar 23, 2018 |
KR |
10-2018-0033930 |
Claims
1. A portable sound device comprising: a main body having an audio
output unit holder; an audio output unit detachably mountable in
the audio output unit holder and configured to output audio; an
audio cable configured to transmit an audio signal to the audio
output unit, one end of the audio cable located outside the main
body when the audio cable is connected to the audio output unit,
and the other end of the audio cable located inside the main body;
and a rotary module rotatably mounted in the main body and
configured to wind or unwind the audio cable according to a
rotational direction of the rotary module, wherein the rotary
module comprises: a stationary unit fixed to the main body, the
stationary unit comprising a shaft; a rotary unit configured to be
rotatable about the shaft, the rotary unit comprising a track
formed in a concave shape; and a stopper inserted into the track
such that a position of the stopper varies in the track when the
rotary unit is rotated, and wherein the track comprises: a first
track formed around the shaft, wherein a distance between one side
of the first track and the shaft is different from a distance
between another side of the first track and the shaft; a second
track located outside the first track; a connection track
interconnecting the first track and the second track; and a stop
track located between the first track and the second track and bent
in a shape of V.
2. The portable sound device according to claim 1, wherein a first
distance from the shaft to a first point of the connection track,
which is closest to the shaft, is equal to or shorter than a second
distance from the shaft to a second point of the first track, which
is farthest from the shaft.
3. The portable sound device according to claim 1, wherein: the
audio cable is wound when the rotary unit is rotated in a first
direction; the first track comprises no inclined surface and no
step portion; and the second track comprises a first inclined
surface, at which a height of a track surface of the second track
gradually increases in the first direction, and a first step
portion formed at a part of the second track at which the stop
track is located, a height of the first step portion gradually
decreasing in the first direction.
4. The portable sound device according to claim 3, wherein the
first inclined surface is located between the connection track and
the stop track.
5. The portable sound device according to claim 1, wherein the
connection track comprises a second inclined surface, at which a
height of a track surface of the connection track gradually
increases from the first track to the second track, and a second
step portion located between the connection track and the second
track, the connection track being higher than the second track at
the second step portion.
6. The portable sound device according to claim 1, wherein a height
of a track surface of the stop track is uniform.
7. The portable sound device according to claim 1, wherein a third
distance from the shaft to an outer track side of a V-shaped bent
portion of the stop track is less than a fourth distance from the
shaft to an inner track side of the V-shaped bent portion of the
stop track.
8. The portable sound device according to claim 1, further
comprising: a stop plate located at an upper surface of the track,
the stop plate comprising a shaft slot, through which the shaft
extends, and the stopper protruding toward the track, wherein: a
width of the shaft slot corresponds to a width of the shaft; and a
length of the shaft slot is equal to or greater than a difference
in a distance between a point of the first track that is the
closest to the shaft and a point of the second track that is the
farthest from the shaft.
9. The portable sound device according to claim 8, wherein the
rotary module further comprises: a bracket fixed to the main body
and configured to cover the stop plate, the bracket defining an
external appearance of the rotary module; a guide slot formed in
the bracket, the guide slot extending in a direction parallel to a
longitudinal direction of the shaft slot; and a guide boss formed
at the stop plate and configured to be inserted into the guide
slot.
10. The portable sound device according to claim 9, wherein the
guide boss and the stopper are formed symmetrically in a thickness
direction of the stop plate.
11. The portable sound device according to claim 8, wherein the
stop plate moves rectilinearly in a direction in which the shaft
slot is formed when the rotary unit is rotated.
12. The portable sound device according to claim 1, wherein the
rotary unit further comprises: a bobbin configured to be rotatable
about the shaft such that the audio cable is wound on an outer
circumferential surface of the bobbin; and a reel spring configured
to provide rotary force to the bobbin, the reel spring having one
end coupled to the bobbin and the other end fixed to the shaft.
13. The portable sound device according to claim 1, wherein the
audio output unit comprises an in-ear audio device.
14. The portable sound device according to claim 13, wherein the
in-ear audio device comprises an earbud.
15. A portable sound device comprising: a main body having an audio
output unit holder; an audio output unit detachably mountable in
the audio output unit holder and configured to output audio; an
audio cable coupled to the audio output unit and configured to
transmit an audio signal to the audio output unit, one end of the
audio cable located outside the main body and the other end of the
audio cable located inside the main body; and a rotary module
rotatably mounted in the main body and configured to wind or unwind
the audio cable according to a rotational direction of the rotary
module, wherein the rotary module comprises: a stationary unit
fixed to the main body, the stationary unit comprising a shaft; a
rotary unit configured to be rotatable about the shaft, the rotary
unit comprising a track; a stopper inserted into the track such
that a position of the stopper varies in the track when the rotary
unit is rotated; and a stop plate located at an upper surface of
the track, the stop plate comprising a shaft slot, through which
the shaft extends, and the stopper protruding toward the track,
wherein the track comprises: a first track formed around the shaft
such that a distance of the first track from the shaft is
inconsistent; a second track located outside the first track; a
connection track interconnecting the first track and the second
track; and a stop track located between the first track and the
second track, and wherein: a width of the shaft slot corresponds to
a width of the shaft; and a length of the shaft slot is equal to or
greater than a difference in a distance between a point of the
first track that is the closest to the shaft and a point of the
second track that is the farthest from the shaft.
16. The portable sound device according to claim 15, wherein the
stop track is curved or in a bent shape.
17. The portable sound device according to claim 15, wherein the
stop track is bent in a shape of V.
Description
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] Pursuant to 35 U.S.C. .sctn. 119, this application claims
the benefit of U.S. Provisional Application No. 62/541,075 filed on
Aug. 3, 2017, and also claims the benefit of earlier filing dates
and right of priority to Korean Patent Application Nos.
10-2017-0104744 filed on Aug. 18, 2017; 10-2017-0154846 filed on
Nov. 20, 2017; and 10-2018-0033930 filed on Mar. 23, 2018, the
contents of which are all hereby incorporated by reference herein
in their entirety.
BACKGROUND OF THE INVENTION
Field of the Invention
[0002] The present invention relates to a portable sound (audio)
device that receives a sound signal from a terminal through
wireless communication with the terminal and transmits a control
signal for controlling the terminal to the terminal.
Discussion of the Related Art
[0003] A portable sound device is a device that receives a sound
signal from a terminal and transmits information about sound
collected through a microphone to the terminal. Conventional
portable sound devices use a wired mode, in which a portable sound
device is connected to a terminal through an ear jack in order to
receive a sound signal from the terminal. In recent years, however,
the demand for a wireless communication type portable sound device
has been increased due to the convenience in mobility and use
thereof.
[0004] A portable sound device has an audio output module, through
which music can be played and a telephone conversation can be
performed. The portable sound device may be connected to a base
station in order to have a telephone conversation, may be directly
connected to an external server in order to acquire sound data, and
may be connected to a terminal in order to perform the above
functions through pairing.
[0005] Various types of portable sound devices based on the
portability thereof, such as a headphone-type portable sound
device, which is placed on the head of a user in the form of a hair
band such that the user can carry the portable sound device, an
ear-hanging type portable sound device, and an in-ear type portable
sound device, have been developed.
[0006] A sound cable, which connects an earbud, which is inserted
into the ear of a user to output sound, to a body, which functions
as a holder, is long. When not in use, therefore, the cable may be
tangled or caught on something, which is inconvenient. For this
reason, a rotary module for receiving the sound cable in the body
may be provided.
SUMMARY OF THE INVENTION
[0007] Accordingly, the present invention is directed to a portable
sound device that substantially obviates one or more problems due
to limitations and disadvantages of the related art.
[0008] An object of the present invention is to provide a portable
sound device that receives a sound signal from a terminal through
wireless communication with the terminal and transmits a control
signal for controlling the terminal to the terminal, wherein a
number of members constituting a rotary module is reduced, whereby
the portable sound device has a compact structure.
[0009] Additional advantages, objects, and features of the
invention will be set forth in part in the description which
follows and in part will become apparent to those having ordinary
skill in the art upon examination of the following or may be
learned from practice of the invention. The objectives and other
advantages of the invention may be realized and attained by the
structure particularly pointed out in the written description and
claims hereof as well as the appended drawings.
[0010] To achieve these objects and other advantages and in
accordance with the purpose of the invention, as embodied and
broadly described herein, a portable sound device includes: a main
body having an audio output unit holder; an audio output unit
detachably mountable in the audio output unit holder and configured
to output audio; an audio cable coupled to the audio output unit
and configured to transmit an audio signal to the audio output
unit, one end of the audio cable located outside the main body and
the other end of the audio cable located inside the main body; and
a rotary module rotatably mounted in the main body and configured
to wind or unwind the audio cable according to a rotational
direction of the rotary module.
[0011] According to one aspect of the present invention, the rotary
module includes: a stationary unit fixed to the main body, the
stationary unit comprising a shaft; a rotary unit configured to be
rotatable about the shaft, the rotary unit comprising a track; and
a stopper inserted into the track such that a position of the
stopper varies in the track when the rotary unit is rotated.
Further, the track includes: a first track formed around the shaft
such that a distance of the first track from the shaft is
inconsistent; a second track located outside the first track; a
connection track interconnecting the first track and the second
track; and a stop track located between the first track and the
second track.
[0012] According to an embodiment of the present invention, a
portable sound device includes: a main body having an audio output
unit holder; an audio output unit detachably mountable in the audio
output unit holder and configured to output audio; an audio cable
coupled to the audio output unit and configured to transmit an
audio signal to the audio output unit, one end of the audio cable
located outside the main body and the other end of the audio cable
located inside the main body; and a rotary module rotatably mounted
in the main body and configured to wind or unwind the audio cable
according to a rotational direction of the rotary module, the
rotary module including: a stationary unit fixed to the main body,
the stationary unit comprising a shaft; a rotary unit configured to
be rotatable about the shaft, the rotary unit comprising a track;
and a stopper inserted into the track such that a position of the
stopper varies in the track when the rotary unit is rotated, and
the track including: a first track formed around the shaft such
that a distance of the first track from the shaft is inconsistent;
a second track located outside the first track; a connection track
interconnecting the first track and the second track; and a stop
track located between the first track and the second track.
[0013] It is to be understood that both the foregoing general
description and the following detailed description of the present
invention are exemplary and explanatory and are intended to provide
further explanation of the invention as claimed.
BRIEF DESCRIPTION OF THE DRAWINGS
[0014] The present invention will become more fully understood from
the detailed description given herein below and the accompanying
drawings, which are given by illustration only, and thus are not
limitative of the present invention, and wherein:
[0015] FIG. 1 is a block diagram showing the structure of a
portable sound device according to an embodiment of the present
invention;
[0016] FIG. 2 is a perspective view of the portable sound device
according to an embodiment of the present invention;
[0017] FIG. 3 is an exploded perspective view of the portable sound
device according to an embodiment of the present invention;
[0018] FIG. 4 is an exploded perspective view of an elastic band of
the portable sound device according to an embodiment of the present
invention;
[0019] FIG. 5 is a view showing coupling between a housing and the
elastic band of the portable sound device according to an
embodiment of the present invention;
[0020] FIG. 6 is an exploded perspective view of a rotary module of
the portable sound device according to an embodiment of the present
invention;
[0021] FIG. 7 is an exploded perspective view showing a track, a
bracket, and a stop plate of the portable sound device according to
an embodiment of the present invention;
[0022] FIG. 8 is a view showing the stop plate according to an
embodiment of the present invention;
[0023] FIG. 9 is a view showing the shape of the track of the
portable sound device according to an embodiment of the present
invention;
[0024] FIGS. 10, 11, and 13 are views illustrating various
embodiments in which a stopper of the portable sound device
according to the present invention moves along the track;
[0025] FIG. 12 is an enlarged view showing a stop track according
to an embodiment of the present invention; and
[0026] FIG. 14 is a view showing a track of a conventional portable
sound device.
DETAILED DESCRIPTION OF THE INVENTION
[0027] Description will now be given in detail according to
exemplary embodiments disclosed herein, with reference to the
accompanying drawings. For the sake of brief description with
reference to the drawings, the same or equivalent components may be
provided with the same reference numbers, and description thereof
will not be repeated. In general, a suffix such as "module" and
"unit" may be used to refer to elements or components. Use of such
a suffix herein is merely intended to facilitate description of the
specification, and the suffix itself is not intended to give any
special meaning or function. In the present disclosure, that which
is well-known to one of ordinary skill in the relevant art has
generally been omitted for the sake of brevity. The accompanying
drawings are used to help easily understand various technical
features and it should be understood that the embodiments presented
herein are not limited by the accompanying drawings. As such, the
present disclosure should be construed to extend to any
alterations, equivalents and substitutes in addition to those which
are particularly set out in the accompanying drawings.
[0028] It will be understood that although the terms first, second,
etc. may be used herein to describe various elements, these
elements should not be limited by these terms. These terms are
generally only used to distinguish one element from another.
[0029] It will be understood that when an element is referred to as
being "connected with" another element, the element can be directly
connected with the other element or intervening elements may also
be present. In contrast, when an element is referred to as being
"directly connected with" another element, there are no intervening
elements present.
[0030] A singular representation may include a plural
representation unless it represents a definitely different meaning
from the context.
[0031] Terms such as "include" or "has" are used herein and should
be understood that they are intended to indicate an existence of
several components, functions or steps, disclosed in the
specification, and it is also understood that greater or fewer
components, functions, or steps may likewise be utilized.
[0032] FIG. 1 is a block diagram of a portable sound device 300
according to an embodiment of the present invention. FIG. 2 is a
perspective view of the portable sound device 300 according to an
embodiment of the present invention. For convenience in describing
the structure of the portable sound device 300 shown in FIG. 1,
reference is also to be made to FIG. 2.
[0033] The portable sound device 300 according to an embodiment of
the present invention includes a controller 380, a wireless
communication unit 385, an audio output module 340, a sensing unit
375, a microphone 360, a user input unit 370, and a power supply
unit 390.
[0034] The audio output module 340 outputs sound according to a
sound signal. A representative example of the audio output module
340 is an earbud, which is inserted into an ear of a user in order
to transmit sound to the ear.
[0035] The microphone 360 processes an external sound signal into
electrical voice data. The processed voice data is transmitted to
an external terminal or an external server via the wireless
communication unit 385. The microphone 360 may use various noise
removal algorithms for removing noise generate when receiving an
external sound signal.
[0036] The sensing unit 375 recognizes the state of the portable
sound device 300 and the surroundings of the portable sound device
300. The sensing unit 375 may include an illuminance sensor for
sensing brightness around the portable sound device 300, a touch
sensor for sensing a touch input, a gyro sensor for sensing the
tilt and position of the portable sound device 300, and an earbud
switch for sensing whether the earbud 340 is located in an earbud
holder 325.
[0037] The user input unit 370 allows a user to control the
portable sound device 300. An example of the user input unit 370
may include a talk button 372, a volume button 373, a power button
371, and a reception button for receiving a sound cable or audio
cable 345 in a housing 320.
[0038] The user input unit 370 may include only a talk button 372
and a pair of volume buttons 373. In addition, the user input unit
370 may include a play/stop button and a sequence change button.
The size of the portable sound device 300 is limited, and the user
may push the user input unit 370 without looking thereat. If the
number of buttons is large, it would be difficult for the user to
distinguish between the buttons. For this reason, a limited number
of buttons is used. In this case, the amount of time for which the
buttons are pushed and the number of times that the buttons are
pushed may be varied, and a plurality of buttons may be combined to
input various control commands.
[0039] Since the user carries the portable sound device 300, the
possibility of losing the portable sound device 300 is low.
However, generally, terminals may be lost. For this reason, the
user input unit 370 may perform an alarm function. For example, two
buttons of the user input unit 370 may be simultaneously pushed for
a predetermined amount of time. In this case, a lost terminal
connected to the portable sound device through BLUETOOTH.TM. may
sound an alarm, whereby the lost terminal may be easily found.
[0040] In addition, a voice recording function of an external
terminal connected to the portable sound device through
BLUETOOTH.TM. may be activated to store voices collected through
the microphone 360 of the portable sound device 300.
[0041] Only functions related to conversation and functions related
to playback of sound media are controllable using a conventional
portable sound device. However, the portable sound device according
to the present invention is characterized in that the portable
sound device has diversified functions.
[0042] FIG. 2 is a perspective view of the portable sound device
300 according to an embodiment of the present invention when viewed
in one direction. A main body of the portable sound device 300
according to an embodiment of the present invention includes an
elastic band 310 and a housing 320. As shown in FIG. 2, the main
body is curved in the shape of a C.
[0043] The housing 320, in which electronic parts are received, is
provided at each end of the elastic band 310, which is placed on
the neck of the user. The elastic band 310 and the housing 320 are
partitioned based on the functions of the portable sound device.
Consequently, the elastic band 310 and the housing 320 may be
integrally formed, or may overlap each other.
[0044] The elastic band 310 has elasticity so as to be deformed
within a predetermined range when force is applied thereto and to
return to the original state thereof when the force is removed. If
the distance between the opposite housings 320 is not sufficient
for the neck of the user to pass between the housings 320, the
housings 320 may be spaced apart from each other due to the
elasticity of the elastic band 310 such that the elastic band 310
is placed on the neck of the user or removed from the neck of the
user.
[0045] The shape and length of the elastic band 310 are set so as
to minimize a foreign-body sensation when the elastic band 310 is
placed on the neck of the user. For example, the elastic band 310
may be formed in the shape of a curved cylinder or a twisted tape
having surfaces and a thickness. If the elastic band 310 is formed
in the shape of a twisted tape, the inner surface of the elastic
band 310 is placed on the rear of the neck of the user, and the
outer surface of the elastic band 310 faces the rear of the neck of
the user. The connection between the elastic band 310 and each
housing 320 may be twisted such that the outer surface of each
housing faces the front or the top of the user and the inner
surface of each housing faces the rear or the collarbone of the
user.
[0046] Housings 320 are coupled to the opposite ends of the elastic
band 310 so as to be located at opposite ends of the C-shaped
portable sound device 300. Inside and outside the housings 320 are
disposed various components, such as a main board 381, the wireless
communication unit 385, a battery 391, and a rotary module 350.
[0047] As shown in FIG. 3, the C-shaped portable sound device 300
may be carried while being placed on the neck of the user. At this
time, the sensing unit 375 may sense whether the user is wearing
the portable sound device 300. For example, the sensing unit 375
may be a displacement sensor located at the elastic band 310 for
sensing a change in the curvature of the elastic band 310. The
displacement sensor may sense whether the housings 320 are spaced
apart from each other when the user puts on the portable sound
device 300. In this case, the curvature of the elastic band 310 is
gently changed. Consequently, it may be determined that the user
will use the portable sound device 300, and the portable sound
device 300 may be powered on, or the portable sound device 300 may
be synchronized with an external terminal.
[0048] In order to more accurately determine whether the user wears
the portable sound device 300 or the housings 320 have been spaced
apart from each other while the user is carrying the portable sound
device, additional curvature of the elastic band 310 after the
curvature of the elastic band 310 has been greatly changed may also
be considered. When the curvature of the elastic band 310 is
greatly changed to a first size and then is fixed to a second size,
which is less curved than the state in which the portable sound
device 300 remains unused, it may be determined that the portable
sound device 300 has been placed on the neck of the user.
[0049] In addition to the displacement sensor, a temperature
sensor, an optical sensor, or a heartbeat sensor may be provided at
the surface of the portable sound device that comes into contact
with the neck of the user when the user puts on the portable sound
device 300. When the body temperature is sensed, when brightness
around the portable sound device is reduced, or when a heartbeat is
sensed, it may be determined that the user is wearing the portable
sound device, and the portable sound device 300 may be powered on,
or the wireless communication unit 385 may be activated for
synchronization with an external terminal.
[0050] Alternatively, a switch configured to be physically pushed
may be used. When the user wears the portable sound device 300, the
switch may be pushed to generate an ON signal. When the switch
remains on for a predetermined amount of time or more, the portable
sound device 300 may be powered on, or may be synchronized with an
external terminal.
[0051] The sensing unit 375 may include a plurality of switches. In
this case, a plurality of values may be combined to correctly
determine whether the user is wearing the portable sound device
300.
[0052] FIG. 3 is an exploded perspective view of the portable sound
device 300 according to an embodiment of the present invention.
[0053] Each of the housings 320, coupled to opposite ends of the
elastic band 310, includes an upper case 321 and a lower case 324.
Between the upper case 321 and the lower case 324 are mounted the
main board 381, the wireless communication unit 385, the battery
391, the microphone 360, and the rotary module 350.
[0054] The housings 320 are manufactured by injection-molding a
polymer material. For example, the housings 320 may be made of
plastic, such as polystyrene (PS). The housings 320 may partially
include a different material, such as metal, glass, or leather, in
a portion thereof.
[0055] The housings 320 are made of polystyrene, which exhibits
high rigidity, in order to protect the components therein. In
addition, the surfaces of the housings 320 may be coated with
polyurethane such that the housings can come into tight contact
with the body of the user. When the surfaces of the housings 320
are coated with polyurethane, the portable sound device 300 may
have an external appearance that provides a sense of unity. Since
the elastic band 310 and the housings 320 come into tight contact
with the skin of the user, the portable sound device 300 does not
shake when the user moves, whereby the wearing sensation is
improved.
[0056] The portable sound device 300, which is placed on the body
of the user, is easily exposed to moisture, such as sweat. For this
reason, the portable sound device 300 has a waterproofing function
in order to improve the durability thereof. A rib or a
waterproofing member may be interposed in the gap between the upper
case 321 and the lower case 324 in order to prevent water from
permeating therethrough. Even though a separate waterproofing
member is not provided, the upper case 321 and the lower case 324
may come into tight contact with each other through polyurethane
coating.
[0057] The wireless communication unit 385 and the microphone 360
are mounted on the main board 381, which is mounted in one of the
housings 320, and are connected to the battery 391, the user input
unit 370, and the audio output module 340. The components mounted
in the housings 320 may be disposed symmetrically or
asymmetrically. Only the components mounted in one of the housings
320 may be used through a signal cable mounted in the elastic band
310. For example, in the case in which the wireless communication
unit 385 is mounted in one of the housings 320, a sound signal
received by the wireless communication unit 385 may be transmitted
to the earbuds 340 via the signal cable.
[0058] The wireless communication unit 385 may include an antenna
pattern 386 mounted on the main board 381 or formed on the surfaces
of the housings 320 for transmitting and receiving a signal to and
from an external terminal. The wireless communication unit 385 is
synchronized with an external terminal using a short-distance
wireless communication system, such as BLUETOOTH.TM., in order to
receive a control signal and a sound signal from the external
terminal, or transmits a control signal and a sound signal input
through the user input unit 370 or the microphone 360 of the
portable sound device 300 to the external terminal.
[0059] The power button 371, which is used to turn power on/off,
the talk button 372, which is used for play or conversation, and
the direction key for the volume button 373, which is used to
control sound, may be included in the housings 320. (The direction
key may also be used to perform control to play the previous track
or the next track.) A dome key that is physically pushed or a touch
key that senses a change of capacitance may be used as each
button.
[0060] The position of the touch key is not limited, and the
surfaces of the housings 320 may be variously used. When the touch
key is formed on the surfaces of the housings 320, the position and
function of the touch key may be displayed on the portions of the
surfaces of the housings 320 at which the touch key is formed using
LEDs.
[0061] The earbuds 340 are inserted into the ears of the user to
transmit sound to the user. The earbuds 340 are connected to the
main board 381 via the sound cable 345 shown in FIG. 6. A sound
output module (not shown) may perform a function of directly
generating sound in the earbuds 340. The sound output module may
include a vibrating plate.
[0062] The main board 381 controls the earbuds 340 so as to output
sound according to a sound signal.
[0063] FIG. 4 is an exploded perspective view of an elastic band
310 of a portable sound device 300 according to another embodiment
of the present invention. The elastic band 310 includes a shape
memory alloy 311, covering units 312 and 313, and connection units
315.
[0064] The shape memory alloy 311 returns to a specific shape when
deformed. When the elastic band 310 is deformed as the main body is
widened by the user, the shape memory alloy 311 returns to the
original shape thereof. Consequently, deformation of or damage to
the portable sound device 300 is prevented.
[0065] The covering units 312 and 313 cover the shape memory alloy
311. The covering units 312 and 313 may be made of thermoplastic
polyurethane, the shape of which is variable. Thermoplastic
polyurethane is melted by heat, and has the same elasticity as
rubber, and is resistant to oil and wear after hardening.
[0066] The connection units 315 have fastening structures
configured to be coupled to the housings 320, which are located at
opposite ends of the elastic band 310. The connection units 315
extend leftward and rightward from the covering units 312 and 313
so as to overlap the housings 320, and are coupled to the covering
units 312 and 313 so as to be covered by the covering units 312 and
313. That is, the covering units 312 and 313 are formed on the
shape memory alloy 311 and the connection units 315 by double
injection.
[0067] The second covering unit 312 covers the shape memory alloy
311 and the signal cable so as to accurately dispose the shape
memory alloy 311 at the connection units 315 and to fix the signal
cable, which transmits and receives a signal to or from the
housings 320. The opposite ends of the second covering unit 312 are
coupled to the respective connection units 315. Subsequently, the
first covering unit 313, which covers the connection units 315, the
second covering unit 312, and the shape memory alloy 311, is formed
by double injection. As a result, the elastic band 310 is
configured to be easily deformed when the user wears the portable
sound device and to return to the original shape thereof.
[0068] FIG. 5 is a view showing coupling between the elastic band
310 and the housing 320 of the portable sound device 300 according
to an embodiment of the present invention. The shape memory alloy
311 (see FIG. 4) is exposed from the opposite ends of the second
covering unit 312. In order to increase fixing force, the opposite
ends of the shape memory alloy 311 (see FIG. 4) may be bent in the
form of a hook so as to be connected to the connection units 315.
Each connection unit 315 is provided with a plurality of holes,
through which each connection unit 315 is fastened to a
corresponding one of the housings 320.
[0069] At least a portion of each connection unit 315 may be
surrounded by a corresponding one of the housings 320. An upper
case 321 and lower cases 322 and 324 may cover one surface and the
other surface of at least a portion of each connection unit 315,
respectively. The upper case 321 is exposed outward. For this
reason, the upper case 321 is formed of a single member that
extends from the portions of the elastic band 310 that are coupled
to the connection units 315 to the opposite ends of the main body.
As shown in FIG. 5, the lower cases 322 and 324 may include a first
lower case 322, which surrounds a corresponding one of the
connection units 315, and a second lower case 324, in which
components are mounted.
[0070] The upper case 321 or one of the lower cases 322 and 324 and
a corresponding one of the connection units 315 are coupled to each
other by screws 316, which are fastened to the upper case 321 or
one of the lower cases 322 and 324 through fastening holes formed
in the connection unit 315. The portion of the case from which the
heads of the screws 316 are exposed may be covered by coupling
between the case and the opposite case.
[0071] The length of each connection unit 315 may be set as needed.
In order to secure space and to reduce the weight of the portable
sound device 300, each connection unit 315 may be formed so as to
be short such that the minimum number of screws 316 is used. In
this case, however, the fastening force between the elastic band
310 and the housings 320 is low. When force is repeatedly applied
to the elastic band 310, therefore, the elastic band may be
damaged. Consequently, each connection unit 315 may be extended far
enough to increase fastening force using the maximum number of
screws 316.
[0072] FIG. 6 is an exploded perspective view of the rotary module
350 of the portable sound device according to an embodiment of the
present invention.
[0073] The rotary module 350 is rotatably mounted in each housing
320. When the rotary module 350 is rotated, the sound cable 345 is
wound around the rotary module 350 such that the sound cable 345 is
received in each housing 320 (see FIG. 3). The earbuds 340 (see
FIG. 3) are fastened to the respective earbud holders (see FIG. 2).
The rotary module 350 includes a stationary unit 350a, which is
fixed to the housing 320, and a rotary unit 350b configured to be
rotatable relative to the stationary unit 350a. The stationary unit
350a may further include brackets 3501 and 3502, which define the
external appearance of the rotary module 350.
[0074] The stationary unit 350a includes a shaft 351, which serves
as the axis of rotation of the rotary module 350, and the rotary
unit 350b includes a cylindrical bobbin 353, around which the sound
cable 345 is wound. The bobbin 353 may include a concave part 3531,
which is recessed toward the center thereof to provide a space in
which the sound cable 345 is wound.
[0075] A reel spring 355 is provided in the bobbin 353 to provide
the force necessary to rotate the rotary module 350. The reel
spring 355 is a kind of leaf spring that is spirally wound. The
inside end of the reel spring 355 is fixed to the shaft 351, and
the outside end of the reel spring 355 is coupled to the rotary
unit 350b. When the user pulls the sound cable 345, the bobbin 353
is rotated in a first direction (the counterclockwise direction in
the drawing). As a result, the number of windings of the reel
spring 355 is reduced, whereby the reel spring 355 has elastic
restoring force. When the user releases the sound cable 345, the
reel spring 355 is rotated in a second direction (the clockwise
direction in the drawing), which is opposite the first direction,
due to the restoring force thereof. As a result, the sound cable
345 is wound around the bobbin 353, whereby the sound cable 345 is
received in the housing 320.
[0076] Even when the rotary unit 350b is rotated, the sound cable
345 must be connected to the main board 381 mounted in the housing
320. To this end, the stationary unit 350a includes a rotary module
board 352, which is connected to the main board 381. The rotary
module board 352 includes two electrodes 3521 and 3522 having
different diameters. Connection terminals 354, which are connected
to the electrodes 3521 and 3522, are located in the rotary unit
350b. The connection terminals 354 are connected to the sound cable
345. Even when the rotary unit 250b is rotated, the connection
terminals 354 remain connected to the electrodes 3521 and 3522. An
auxiliary board 3545 may be further included to prevent the
connection terminals 354 from being separated from the electrodes
3521 and 3522 and to connect the connection terminals 354 to the
sound cable 345 by soldering.
[0077] A stop module for controlling the rotation of the rotary
unit 350b in the second direction due to the elasticity of the reel
spring 355 may be further included. The stop module does not
disturb the rotation of the rotary unit 350b in the first direction
when the user pulls the sound cable 345. Consequently, the sound
cable is drawn out while the rotary unit 350b is smoothly rotated
as the user pulls the sound cable 345. When the user releases the
sound cable 345 after drawing out the sound cable 345, the stop
module prevents the rotation of the rotary unit 350b in the second
direction so as to fix the rotary unit 350b such that the sound
cable 345 is not inserted into the housing 320 in the state of
being drawn out.
[0078] When the sound cable 345 is pulled again and released, the
fixed state of the rotary unit 350b is released, and the rotary
unit 350b is rotated in the second direction due to the elasticity
of the reel spring 355. As a result, the sound cable 345 is
inserted into the housing.
[0079] The stop module may control winding and unwinding of the
sound cable 345 on and from the rotary unit 350b merely through a
pulling operation by improving a conventional structure in which
the rotation of the rotary unit 350b is fixed by a member such as a
hook and the fixed state of the rotary unit 350b is released by a
button.
[0080] The stop module includes a track module 357 having a track
formed concavely in the shape of a groove and a stopper 3595
configured to move on the track when the track module 357 is
rotated. The stopper 3595 may be formed in the shape of a ball or a
pogo pin. As shown in FIG. 6, the stopper 3595 may protrude from a
stop plate 359.
[0081] The stationary unit 350a is fixed to the housing 320,
whereby the stationary unit 350a is not movable, and the rotary
unit 350b is rotated about the shaft 351. However, the stopper 3595
moves rectilinearly in the diametric direction of the rotary unit
350b.
[0082] FIG. 7 shows the stop module. The stop module may include a
track module 357 and a stop plate 359, which includes a shaft slot
3591 and a stopper 3595 (shown in FIG. 6). The track module 357,
which is a portion of the rotary unit 350b, moves with the bobbin
353. The stop plate 359 moves rectilinearly when the rotary unit
350b is rotated.
[0083] The stop plate 359, which is a plate-shaped member, is made
of an injection-molded material or a plate-shaped metal material.
FIG. 8 is a plan view and a side view showing the stop plate
according to an embodiment of the present invention. The stop plate
359 is provided with a shaft slot 3591, a stopper 3595, and a guide
boss 3597. The shaft slot 3591 is an opening formed in the stop
plate 359 so as to extend to one side thereof. The shaft 351
extends through the shaft slot 3591.
[0084] The width of the shaft slot 3591 corresponds to the width of
the shaft 351, and the shaft slot 3591 extends to one side thereof
so as to be longer than the diameter of the shaft 351. The length
of the shaft slot 3591 corresponds to a difference in the diameter
between a first track 3571 and a second track 3572 of the track, a
description of which will follow.
[0085] The stopper 3595 is a protrusion that protrudes from the
stop plate 359 toward the track module 357. The stopper 3595 may be
formed so as to have a shape corresponding to the section of the
track. The concave track surface of the track may have a shape
corresponding to the shape of the stopper 3595.
[0086] The guide boss 3597 protrudes in the direction opposite the
direction in which the stopper 3595 protrudes. The guide boss 3597
is inserted into a guide slot 358 formed in the bracket 3501. As
shown in FIG. 6, the guide slot 358 may be formed in the shape of a
groove extending in the direction parallel to the direction in
which the shaft slot 3591 extends.
[0087] If the guide boss 3597 and the guide slot 358 are not
provided, the stop plate 359 does not move rectilinearly but is
rotated with the rotary unit 350b. In order to solve this problem,
the rotation of the stop plate 359 may be prevented and the
rectilinear movement of the stop plate 359 toward the shaft slot
3591 may be assisted through the guide slot 358 formed in the
bracket 3501, which is a stationary unit.
[0088] As shown in FIG. 8(b), the guide boss 3597 and the stopper
3595 may be formed symmetrically. In the case in which the guide
boss 3597 and the stopper 3595 are formed symmetrically, one
surface and the other surface of the stop plate 359 are not
distinguished from each other. At the time of assembly, therefore,
defects due to overturning of the stop plate 359 may be reduced,
whereby assembly efficiency may be improved and thus the incidence
of assembly defects may be reduced.
[0089] The track module 357 according to an embodiment of the
present invention includes a track formed concavely in the shape of
a groove. The stopper 3595 may move along the track. The stop plate
359 moves depending on the position of the stopper 3595 on the
track module 357. The shaft slot 3591 in the stop plate 359 is not
rotated but moves rectilinearly. The track module 357 is located on
the bobbin 353, which is a component of the rotary unit 350b, so as
to be rotatable with the rotary unit 350b when the rotary unit 350b
is rotated. The stop plate 359 moves rectilinearly depending on the
position of the stopper 3595 on the track when the track module 357
is rotated.
[0090] FIG. 9 is a plan view of the track module 357 of the
portable sound device according to an embodiment of the present
invention. In the track module 357 shown in FIG. 9, rotation in the
first direction, in which the sound cable is unwound, is referred
to as "counterclockwise-direction rotation", and rotation in the
second direction, in which the sound cable is wound on the bobbin
353, is referred to as "clockwise-direction rotation". However, the
first direction may be the clockwise direction and the second
direction may be the counterclockwise direction depending on the
shape of the track module 357 and the reel spring 355. The
following description will be given based on the shape of the track
module 357 shown in the drawing for convenience of description.
[0091] The track module 357 includes two circular tracks 3571 and
3572, at the center of each of which the shaft 351 is located, a
connection track 3573 interconnecting the circular tracks 3571 and
3572, and a stop track 3574. The first track 3571 and the second
track 3572 have different diameters. The first track 3571 is
located inside the second track 3572. The first track 3571 has an
asymmetrical structure in which the distance of the first track
3571 from the shaft 351 is not uniform, but one side of the first
track 3571 is located farther from the shaft 351.
[0092] FIG. 14 is a view showing a conventional track 10. A first
track 11 has a concentric circle, at the center of which a shaft is
located. The first track 11 includes a step portion 25 that is
inclined throughout a track surface and protrudes in the clockwise
direction at the part thereof at which a connection track 13 is
located. The step portion 25 of the first track 11 serves as a
guide for guiding the stopper to move from the first track 11 to
the connection track 13 when the track module is rotated in the
counterclockwise direction. When the track module is rotated in the
first track 11 in the clockwise direction, the track module moves
from the high position to the lower position of the step portion
25, whereby the stopper may be continuously located in the first
track 11.
[0093] In contrast, the first track 3571 according to the present
invention includes no inclined surface and no step portion, as
shown in FIG. 9. The step portion or the inclined surface may be
omitted from the first track 3571 according to the present
invention, since the distance of the first track 3571 from the
shaft 351 is not uniform. FIG. 10 is a view illustrating the
relationship between the track module 357 and the stop plate 359
when the sound cable 345 is pulled so as to be withdrawn from the
housing 320.
[0094] In the state in which the sound cable 345 is wound on the
rotary module 350 (see FIG. 10(a)), the stopper 3595 is located in
the first track 3571. When the user separates the earbud 340 from
the earbud holder 325 and then pulls the earbud 340, the track
module 357 is rotated in the counterclockwise direction, whereby
the sound cable 345 is unwound. When the sound cable 345 is pulled,
the track module 357 is rotated in the counterclockwise direction
in the state in which the stopper 3595 is located in the first
track 3571. The stopper 3595 passes through a second point B of the
first track 3571, which is the farthest from the shaft 351 (see
FIG. 10(b)), is located in the connection track 3573 (see FIG.
10(c)), passes through the connection track 3573, and is introduced
into the second track 3572 (see FIG. 10(d)).
[0095] The first distance x1 from the shaft 351 to the first point
A of the connection track 3573, which is the closest to the shaft
351, must be equal to or less than the second distance x2 from the
shaft 351 to the second point B of the connection track 3573
(x1.ltoreq.x2). In order for the stopper 3595 to be introduced into
the connection track 3573 without being caught at the first point A
when the rotary unit is rotated in the counterclockwise direction,
the second distance x2 must be equal to or less than the first
distance x1.
[0096] Since the position of the outer circumferential surface of
the first track is uniform from the state shown in FIG. 10(b) to
the state shown in FIG. 10(c), the stop plate 359 does not move
rectilinearly, and the distance from the stopper 3595 to the shaft
351 is increased when the stopper 3595 is introduced into the
second track 3572 along the connection track 3573. Consequently,
the stopper 3595 moves rectilinearly so as to become distant from
the shaft 351. The position of the shaft 351 in the shaft slot 3591
is biased in the direction opposite the direction in which the
stopper 3595 is located (see FIG. 10(d)).
[0097] When the user continuously pulls the sound cable 345, the
track module 357 is continuously rotated in the counterclockwise
direction in the state in which the stopper 3595 is located in the
second track 3572, as shown in FIG. 10(d). The second track 3572 is
provided at the part thereof that is connected to the stop track
3574 with a first step portion 3575a, the height of which is
increased in the counterclockwise direction. The second track 3572
includes a first inclined surface 3575b for compensating for the
height of the first step portion 3575a. The first inclined surface
3575b may be located between the connection track 3573 and the stop
track 3574 so as not to affect a second step portion 3576a, which
is located between the connection track 3573 and the second track
3572.
[0098] When the rotary unit 350b is rotated in the counterclockwise
direction, the rotary unit 350b may be rotated in the state in
which the stopper 3595 is located in the second track 3572. When
the rotary unit 350b is rotated in the clockwise direction,
however, the stopper 3595 is caught by the first step portion
3575a, which is higher in the counterclockwise direction, whereby
the stopper 3595 moves to the stop track 3574.
[0099] FIG. 11 shows the case in which the user releases the sound
cable 345 while pulling the sound cable 345 (a), the case in which
the rotation of the rotary module 350 is restricted (b), the case
in which the user pulls the sound cable 345 again (c), and the case
in which the fixed state of the rotary unit 350b is released (d).
The stop track 3574 may include a first stop track 3574a connected
to the second track 3572, the first stop track 3574a being bent in
the shape of a V, a second stop track 3574c connected to the first
stop track 3574a, and a fixing portion 3574b, at which the first
stop track 3574a and the second stop track 3574c are connected to
each other, the fixing portion 3574b being bent. FIG. 12 is an
enlarged view of the stop track 3574. As shown in FIG. 12, the
width of the stop track 3574 may not be uniform, but may vary.
[0100] In the case in which the user releases the sound cable 345
while pulling the sound cable 345 (see FIG. 11(a)), the stopper
3595 reaches the first step portion 3575a. At this time, the
stopper 3595 moves along the first stop track 3574a. When the
stopper 3595 reaches the fixing portion 3574b, the rotation of the
track module 357 is stopped (see FIG. 11(b)).
[0101] When the user pulls the sound cable 345 again, the track
module 357 is rotated in the counterclockwise direction, and the
stopper 3595 escapes from the fixing portion 3574b of the stop
track 3574 and moves to the first track 3571 along the second stop
track 3574c (see FIGS. 11(c) and 11(d)).
[0102] Only in the case in which the distance x4 from the shaft 351
to the starting point of the second stop track 3574c is equal to or
greater than the distance x3 from the shaft 351 to the fixing
portion 3574b, as shown in FIG. 12(a), the stopper 3595 moves to
the first track 3571 from the fixing portion along the second stop
track 3574c (x3.ltoreq.x4).
[0103] Referring to FIG. 14, a conventional stop track 14 also
includes a step portion 23. In the present invention, however, the
distances from the shaft 351 to the fixing portion of the stop
track 3574 and to the starting point of the second stop track 3574c
are set so as to have the above-described relationship such that
the stopper 3595 is guided so as not to move to the first stop
track 3574a but to move to the second stop track 3574c from the
fixing portion.
[0104] When the user continuously pulls the sound cable 345, as
shown in FIG. 10, the stopper 3595 is introduced again into the
second track 3572 through the connection track 3573, and the track
is rotated in the counterclockwise direction in the state in which
the stopper 3595 is located in the second track.
[0105] When the user slightly pulls the sound cable 345 and then
releases the sound cable 345, as shown in FIG. 13, the track is
rotated in the clockwise direction by the reel spring 355 in the
state in which the stopper 3595 is located in the first track 3571
(see FIGS. 11(a), 11(b), and 11(c)). When the sound cable 345 is
completely wound, the stopper 3595 is maintained in the state of
being located in the first track 3571, as shown in FIG. 13(d).
[0106] In the conventional track 10, a step 24 is formed between
the first track 11 and the stop track 14 in order to guide the
stopper 3595 such that the stopper 3595 does not move from the
first track 11 to the stop track 14 when the track 10 is rotated in
the clockwise direction.
[0107] In contrast, according to the present invention, no step is
formed between the first track 3571 and the stop track 3574, and
the movement of the stopper 3595 from the first track to the stop
track may be prevented based on the distance from the shaft 351 to
the connection point of the stop track 3574 and the first track
3571. Referring to FIG. 12(b), the distance x5 from the shaft 351
to the front point C of the connection of the stop track 3574 and
the first track 3571 in the counterclockwise direction may be set
so as to be equal to or less than the distance x6 from the shaft
351 to the rear point D of the connection of the stop track 3574
and the first track 3571. When the track module 357 is rotated in
the clockwise direction, the stopper 3595 may be rotated in the
state of being continuously located in the first track 3571 without
being caught at the rear point D or being introduced into the stop
track 3574 from the front point C (x5.ltoreq.x6).
[0108] As is apparent from the above description, the portable
sound device according to the present invention has the following
effects.
[0109] The number of members constituting the rotary module is
reduced, whereby the thickness of the rotary module is reduced and
thus the limited space is efficiently used.
[0110] In addition, the size of the step on the track surface is
minimized, whereby soft rotation of the rotary module is achieved
when the sound cable is inserted or withdrawn, and thus the
usability of the portable sound device is improved.
[0111] Further scope of applicability of the present invention will
become apparent from the detailed description given above. However,
it should be understood that the detailed description and specific
examples, while indicating preferred embodiments of the invention,
are given by illustration only, since various changes and
modifications within the spirit and scope of the invention will
become apparent to those skilled in the art from this detailed
description.
[0112] The above detailed description is not to be construed as
limiting the present invention in any aspect, and is to be
considered by way of example. The scope of the present invention
should be determined by reasonable interpretation of the
accompanying claims, and all equivalent modifications made without
departing from the present invention should be included in the
following claims.
* * * * *